Mapping flowering time QTLs in watermelon wild relative Citrullus amarus

Inbred lines of Citrullus amarus , a wild relative of cultivated watermelon, are widely used as rootstocks to control soil-borne diseases for watermelon ( Citrullus lanatus ) production. The most commonly used C. amarus rootstock, ‘Carolina strongback’ (Syngenta, Basel, Switzerland) flowers weeks later than commercial watermelon cultivars, which delays the onset of female flowering (DFF) of the scion, leading to an undesirable delay in fruit maturity and harvesting. Understanding the genetics of DFF in a C. amarus population will facilitate the development of rootstocks with the early flowering habits preferred for commercial production. A recombinant inbred line population (N = 129 lines) developed between C. amarus lines, USVL246-FR2 and USVL114, was evaluated in field trials in spring and fall of 2022 and 2023 for DFF and days to fruiting (DFT) after being transplanted into the field. The correlation between DFF and DFT is 0.92. Broad sense heritability of DFF and DFT were 0.23 and 0.31, respectively. Two QTLs influencing both DFF and DFT across the seasons and years were identified at 90.5 and 56.0 cM on chromosome 3 and together explained 39.67 percent variance of DFF. Two additional QTLs associated with DFF, were season-specific with a spring and a fall QTL on chromosome 10 and on the proximal end of chromosome 3, respectively. Genes coding for putative proteins involved in inducing anthesis, activation and regulation of FT proteins were identified in the 1.5 LOD interval of the stable major QTLs on chromosome 3.